Add to ORKGMotivationCopy number alterations (CNAs) are a significant driver in cancer growth and development, but remain poorly characterized on the single cell level. Although genome evolution in cancer cells is Markovian through evolutionary time, CNAs are not Markovian along the genome. However, existing methods call copy number profiles with Hidden Markov Models or change point detection algorithms based on changes in observed read depth, corrected by genome content and do not account for the stochastic evolutionary process.ResultsWe present a theoretical framework to use tumor evolutionary history to accurately call CNAs in a principled manner. To model the tumor evolutionary process and account for technical noise from low coverage single-cell ...
Next generation sequencing (NGS) technology provides researchers an opportunity to study cancer gen...
<p>We present methods to construct phylogenetic models of tumor progression at the cellular level th...
Summary:Copy number variation is an important and abundant source of variation in the human genome, ...
MotivationCopy number alterations (CNAs) are a significant driver in cancer growth and development, ...
BackgroundSingle cell whole genome tumor sequencing can yield novel insights into the evolutionary h...
Single-cell sequencing is a promising technology that can address cancer cell evolution by identifyi...
Single-cell sequencing is a promising technology that can address cancer cell evolution by identifyi...
MOTIVATION: In recent years, the well-known Infinite Sites Assumption has been a fundamental feature...
Emerging ultra-low coverage single-cell DNA sequencing (scDNA-seq) technologies have enabled high re...
*To whom correspondence should be addressed. Motivation: Phylogenetic algorithms have begun to see w...
Cancer is a genetic disease. The activation, alteration or deactivation of cancer genes can stimulat...
Tumour development has long been recognised as an evolutionary process during which cells accumulate...
Genomic aberrations such as copy number alterations (CNA) and loss of heterozygosity (LOH) are hallm...
Motivation: Copy number abnormalities (CNAs) represent an important type of genetic mutation that ca...
By accurately describing cancer genomes, we may link genomic mutations to phenotypic effects and eve...
Next generation sequencing (NGS) technology provides researchers an opportunity to study cancer gen...
<p>We present methods to construct phylogenetic models of tumor progression at the cellular level th...
Summary:Copy number variation is an important and abundant source of variation in the human genome, ...
MotivationCopy number alterations (CNAs) are a significant driver in cancer growth and development, ...
BackgroundSingle cell whole genome tumor sequencing can yield novel insights into the evolutionary h...
Single-cell sequencing is a promising technology that can address cancer cell evolution by identifyi...
Single-cell sequencing is a promising technology that can address cancer cell evolution by identifyi...
MOTIVATION: In recent years, the well-known Infinite Sites Assumption has been a fundamental feature...
Emerging ultra-low coverage single-cell DNA sequencing (scDNA-seq) technologies have enabled high re...
*To whom correspondence should be addressed. Motivation: Phylogenetic algorithms have begun to see w...
Cancer is a genetic disease. The activation, alteration or deactivation of cancer genes can stimulat...
Tumour development has long been recognised as an evolutionary process during which cells accumulate...
Genomic aberrations such as copy number alterations (CNA) and loss of heterozygosity (LOH) are hallm...
Motivation: Copy number abnormalities (CNAs) represent an important type of genetic mutation that ca...
By accurately describing cancer genomes, we may link genomic mutations to phenotypic effects and eve...
Next generation sequencing (NGS) technology provides researchers an opportunity to study cancer gen...
<p>We present methods to construct phylogenetic models of tumor progression at the cellular level th...
Summary:Copy number variation is an important and abundant source of variation in the human genome, ...